ERDEN, Y. Et Al. 2015. Radial Basis Function Artificial Neural Networks Can Predict UCP2 mRNA Levels According to Irisin Dose and Time of Application in the Cerebellum of Rats. ACTA PHYSIOLOGICA , vol.215 , 107.

ERDEN, Y., TEKİN, S., ÇOLAK, C., SANDAL, S., Tektemur, A., Onalan, E. E., ... Kirbag, S.(2015). Radial Basis Function Artificial Neural Networks Can Predict UCP2 mRNA Levels According to Irisin Dose and Time of Application in the Cerebellum of Rats. ACTA PHYSIOLOGICA , vol.215, 107.

ERDEN, Yavuz Et Al. "Radial Basis Function Artificial Neural Networks Can Predict UCP2 mRNA Levels According to Irisin Dose and Time of Application in the Cerebellum of Rats," ACTA PHYSIOLOGICA , vol.215, 107, 2015

ERDEN, Yavuz Et Al. "Radial Basis Function Artificial Neural Networks Can Predict UCP2 mRNA Levels According to Irisin Dose and Time of Application in the Cerebellum of Rats." ACTA PHYSIOLOGICA , vol.215, pp.107, 2015

ERDEN, Y. Et Al. (2015) . "Radial Basis Function Artificial Neural Networks Can Predict UCP2 mRNA Levels According to Irisin Dose and Time of Application in the Cerebellum of Rats." ACTA PHYSIOLOGICA , vol.215, p.107.

@article{article, author={Yavuz ERDEN Et Al. }, title={Radial Basis Function Artificial Neural Networks Can Predict UCP2 mRNA Levels According to Irisin Dose and Time of Application in the Cerebellum of Rats}, journal={ACTA PHYSIOLOGICA}, year=2015, pages={107} }